Back to search results

Fusion energy developer Helion Energy said yesterday it has become the first private company to announce exceeding 100 million degrees Celsius in its sixth fusion generator prototype, Trenta. It also announced its Trenta prototype recently finished a 16-month testing campaign, completing almost 10,000 high-power pulses.

The divertor of the Trenta fusion generator prototype (Image: Helion Energy)

The company said reaching this temperature is a critical engineering milestone as it is considered the ideal fuel temperature at which a commercial power plant would need to operate.

Everett, Washington-based Helion added that the 16-month testing campaign of Trenta "pushed fusion fuel performance to unprecedented levels and performed lifetime and reliability testing on key components of the fusion system".

The company said reaching these temperatures and confirming system reliability are "vital milestones" that validate its plans to develop a cost-effective, zero-carbon electrical power plant using its pulsed, non-ignition-fusion device.

"These achievements represent breakthroughs with major implications for how the world meets its expanding future electricity needs while dramatically reducing climate impact on a relevant timescale," said Helion Energy founder and CEO David Kirtley.

Helion says its approach to fusion energy differs in three main ways from other approaches. Firstly, it uses a pulsed fusion system, which helps overcome the hardest physics challenges, keeps its fusion device smaller than other approaches, and allows it to adjust the power output based on need. Secondly, its system is built to directly recover electricity, while other fusion systems heat water to create steam to turn a turbine which loses a lot of energy in the process. Thirdly, it uses deuterium and helium-3 as fuel, which helps keep its system small and efficient.

Researched and written by World Nuclear News

Date: Thursday, 24 June 2021
Original article: world-nuclear-news.org/Articles/Helion-announces-fusion-milestones